mirror of
https://github.com/dart-lang/sdk
synced 2024-11-02 12:24:24 +00:00
eb8c24e133
R=zra@google.com BUG= Review URL: https://codereview.chromium.org/2451623006 .
536 lines
18 KiB
Dart
536 lines
18 KiB
Dart
#!/usr/bin/env dart
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// Copyright (c) 2015, the Dart project authors. Please see the AUTHORS file
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// for details. All rights reserved. Use of this source code is governed by a
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// BSD-style license that can be found in the LICENSE file.
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/// Command line tool to merge the SDK libraries and our patch files.
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/// This is currently designed as an offline tool, but we could automate it.
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import 'dart:io';
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import 'dart:math' as math;
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import 'package:analyzer/analyzer.dart';
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import 'package:analyzer/src/generated/sdk.dart';
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import 'package:path/path.dart' as path;
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void main(List<String> argv) {
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var base = path.fromUri(Platform.script);
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var dartDir = path.dirname(path.dirname(path.absolute(base)));
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if (argv.length != 4 ||
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!argv.isEmpty && argv.first != 'vm' && argv.first != 'ddc') {
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var self = path.relative(base);
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print('Usage: $self MODE SDK_DIR PATCH_DIR OUTPUT_DIR');
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print('MODE must be one of ddc or vm.');
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var toolDir = path.relative(path.dirname(base));
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var sdkExample = path.join(toolDir, 'input_sdk');
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var patchExample = path.join(sdkExample, 'patch');
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var outExample =
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path.relative(path.normalize(path.join('gen', 'patched_sdk')));
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print('For example:');
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print('\$ $self ddc $sdkExample $patchExample $outExample');
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var repositoryDir = path.relative(path.dirname(path.dirname(base)));
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sdkExample = path.relative(path.join(repositoryDir, 'sdk'));
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patchExample = path.relative(path.join(repositoryDir, 'out', 'DebugX64',
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'obj', 'gen', 'patch'));
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outExample = path.relative(path.join(repositoryDir, 'out', 'DebugX64',
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'obj', 'gen', 'patched_sdk'));
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print('or:');
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print('\$ $self vm $sdkExample $patchExample $outExample');
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exit(1);
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}
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var mode = argv[0];
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var input = argv[1];
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var sdkLibIn = path.join(input, 'lib');
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var patchIn = argv[2];
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var sdkOut = path.join(argv[3], 'lib');
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var privateIn = path.join(input, 'private');
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var INTERNAL_PATH = '_internal/compiler/js_lib/';
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// Copy and patch libraries.dart and version
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var libContents = new File(path.join(sdkLibIn, '_internal',
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'sdk_library_metadata', 'lib', 'libraries.dart')).readAsStringSync();
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var patchedLibContents = libContents;
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if (mode == 'vm') {
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libContents = libContents.replaceAll(
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' libraries = const {',
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''' libraries = const {
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"_builtin": const LibraryInfo(
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"_builtin/_builtin.dart",
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categories: "Client,Server",
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implementation: true,
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documented: false,
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platforms: VM_PLATFORM),
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"profiler": const LibraryInfo(
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"profiler/profiler.dart",
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maturity: Maturity.DEPRECATED,
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documented: false),
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"_vmservice": const LibraryInfo(
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"vmservice/vmservice.dart",
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implementation: true,
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documented: false,
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platforms: VM_PLATFORM),
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"vmservice_io": const LibraryInfo(
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"vmservice_io/vmservice_io.dart",
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implementation: true,
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documented: false,
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platforms: VM_PLATFORM),
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''');
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}
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_writeSync(
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path.join(
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sdkOut, '_internal', 'sdk_library_metadata', 'lib', 'libraries.dart'),
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libContents);
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if (mode == 'ddc') {
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_writeSync(path.join(sdkOut, '..', 'version'),
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new File(path.join(sdkLibIn, '..', 'version')).readAsStringSync());
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}
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// Parse libraries.dart
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var sdkLibraries = _getSdkLibraries(libContents);
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// Enumerate core libraries and apply patches
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for (SdkLibrary library in sdkLibraries) {
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// TODO(jmesserly): analyzer does not handle the default case of
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// "both platforms" correctly, and treats it as being supported on neither.
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// So instead we skip explicitly marked as either VM or dart2js libs.
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if (mode == 'ddc' ? libary.isVmLibrary : library.isDart2JsLibrary) {
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continue;
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}
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var libraryOut = path.join(sdkLibIn, library.path);
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var libraryIn;
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if (mode == 'vm' && library.path.contains('typed_data.dart')) {
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// dart:typed_data is unlike the other libraries in the SDK. The VM does
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// not apply a patch to the base SDK implementation of the library.
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// Instead, the VM provides a replacement implementation and ignores the
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// sources in the SDK.
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libraryIn =
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path.join(dartDir, 'runtime', 'lib', 'typed_data.dart');
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} else if (mode == 'ddc' && library.path.contains(INTERNAL_PATH)) {
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libraryIn =
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path.join(privateIn, library.path.replaceAll(INTERNAL_PATH, ''));
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} else {
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libraryIn = libraryOut;
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}
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var libraryFile = new File(libraryIn);
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if (libraryFile.existsSync()) {
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var outPaths = <String>[libraryOut];
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var libraryContents = libraryFile.readAsStringSync();
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int inputModifyTime =
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libraryFile.lastModifiedSync().millisecondsSinceEpoch;
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var partFiles = <File>[];
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for (var part in parseDirectives(libraryContents).directives) {
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if (part is PartDirective) {
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var partPath = part.uri.stringValue;
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outPaths.add(path.join(path.dirname(libraryOut), partPath));
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var partFile = new File(path.join(path.dirname(libraryIn), partPath));
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partFiles.add(partFile);
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inputModifyTime = math.max(inputModifyTime,
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partFile.lastModifiedSync().millisecondsSinceEpoch);
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}
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}
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// See if we can find a patch file.
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var patchPath = path.join(
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patchIn, path.basenameWithoutExtension(libraryIn) + '_patch.dart');
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var patchFile = new File(patchPath);
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bool patchExists = patchFile.existsSync();
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if (patchExists) {
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inputModifyTime = math.max(inputModifyTime,
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patchFile.lastModifiedSync().millisecondsSinceEpoch);
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}
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// Compute output paths
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outPaths = outPaths
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.map((p) => path.join(sdkOut, path.relative(p, from: sdkLibIn)))
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.toList();
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// Compare output modify time with input modify time.
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bool needsUpdate = false;
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for (var outPath in outPaths) {
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var outFile = new File(outPath);
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if (!outFile.existsSync() ||
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outFile.lastModifiedSync().millisecondsSinceEpoch <
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inputModifyTime) {
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needsUpdate = true;
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break;
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}
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}
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if (needsUpdate) {
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var contents = <String>[libraryContents];
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contents.addAll(partFiles.map((f) => f.readAsStringSync()));
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if (patchExists) {
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var patchContents = patchFile.readAsStringSync();
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contents = _patchLibrary(
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patchFile.path, contents, patchContents);
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}
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for (var i = 0; i < outPaths.length; i++) {
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if (path.basename(outPaths[i]) == 'internal.dart') {
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contents[i] += '''
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/// Marks a function as an external implementation ("native" in the Dart VM).
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///
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/// Provides a backend-specific String that can be used to identify the
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/// function's implementation
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class ExternalName {
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final String name;
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const ExternalName(this.name);
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}
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''';
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}
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_writeSync(outPaths[i], contents[i]);
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}
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}
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}
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}
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if (mode == 'vm') {
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for (var tuple in [['_builtin', 'builtin.dart']]) {
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var vmLibrary = tuple[0];
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var dartFile = tuple[1];
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// The "dart:_builtin" library is only available for the DartVM.
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var builtinLibraryIn = path.join(dartDir, 'runtime', 'bin', dartFile);
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var builtinLibraryOut = path.join(sdkOut, vmLibrary, '${vmLibrary}.dart');
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_writeSync(builtinLibraryOut, new File(builtinLibraryIn).readAsStringSync());
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}
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for (var file in ['loader.dart', 'server.dart', 'vmservice_io.dart']) {
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var libraryIn = path.join(dartDir, 'runtime', 'bin', 'vmservice', file);
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var libraryOut = path.join(sdkOut, 'vmservice_io', file);
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_writeSync(libraryOut, new File(libraryIn).readAsStringSync());
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}
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}
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}
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/// Writes a file, creating the directory if needed.
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void _writeSync(String filePath, String contents) {
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var outDir = new Directory(path.dirname(filePath));
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if (!outDir.existsSync()) outDir.createSync(recursive: true);
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new File(filePath).writeAsStringSync(contents);
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}
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/// Merges dart:* library code with code from *_patch.dart file.
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///
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/// Takes a list of the library's parts contents, with the main library contents
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/// first in the list, and the contents of the patch file.
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///
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/// The result will have `@patch` implementations merged into the correct place
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/// (e.g. the class or top-level function declaration) and all other
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/// declarations introduced by the patch will be placed into the main library
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/// file.
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///
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/// This is purely a syntactic transformation. Unlike dart2js patch files, there
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/// is no semantic meaning given to the *_patch files, and they do not magically
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/// get their own library scope, etc.
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///
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/// Editorializing: the dart2js approach requires a Dart front end such as
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/// package:analyzer to semantically model a feature beyond what is specified
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/// in the Dart language. Since this feature is only for the convenience of
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/// writing the dart:* libraries, and not a tool given to Dart developers, it
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/// seems like a non-ideal situation. Instead we keep the preprocessing simple.
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List<String> _patchLibrary(String name,
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List<String> partsContents,
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String patchContents) {
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var results = <StringEditBuffer>[];
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// Parse the patch first. We'll need to extract bits of this as we go through
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// the other files.
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final patchFinder = new PatchFinder.parseAndVisit(name, patchContents);
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// Merge `external` declarations with the corresponding `@patch` code.
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for (var partContent in partsContents) {
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var partEdits = new StringEditBuffer(partContent);
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var partUnit = parseCompilationUnit(partContent);
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partUnit.accept(new PatchApplier(partEdits, patchFinder));
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results.add(partEdits);
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}
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return new List<String>.from(results.map((e) => e.toString()));
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}
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/// Merge `@patch` declarations into `external` declarations.
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class PatchApplier extends GeneralizingAstVisitor {
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final StringEditBuffer edits;
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final PatchFinder patch;
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bool _isLibrary = true; // until proven otherwise.
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PatchApplier(this.edits, this.patch);
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@override
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visitCompilationUnit(CompilationUnit node) {
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super.visitCompilationUnit(node);
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if (_isLibrary) _mergeUnpatched(node);
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}
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void _merge(AstNode node, int pos) {
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var code = patch.contents.substring(node.offset, node.end);
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edits.insert(pos, '\n' + code);
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}
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/// Merges directives and declarations that are not `@patch` into the library.
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void _mergeUnpatched(CompilationUnit unit) {
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// Merge imports from the patch
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// TODO(jmesserly): remove duplicate imports
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// To patch a library, we must have a library directive
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var libDir = unit.directives.first as LibraryDirective;
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int importPos = unit.directives
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.lastWhere((d) => d is ImportDirective, orElse: () => libDir)
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.end;
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for (var d in patch.unit.directives.where((d) => d is ImportDirective)) {
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_merge(d, importPos);
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}
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int partPos = unit.directives.last.end;
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for (var d in patch.unit.directives.where((d) => d is PartDirective)) {
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_merge(d, partPos);
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}
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// Merge declarations from the patch
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int declPos = edits.original.length;
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for (var d in patch.mergeDeclarations) {
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_merge(d, declPos);
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}
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}
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@override
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visitPartOfDirective(PartOfDirective node) {
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_isLibrary = false;
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}
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@override
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visitFunctionDeclaration(FunctionDeclaration node) {
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_maybePatch(node);
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}
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/// Merge patches and extensions into the class
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@override
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visitClassDeclaration(ClassDeclaration node) {
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node.members.forEach(_maybePatch);
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var mergeMembers = patch.mergeMembers[_qualifiedName(node)];
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if (mergeMembers == null) return;
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// Merge members from the patch
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var pos = node.members.last.end;
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for (var member in mergeMembers) {
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var code = patch.contents.substring(member.offset, member.end);
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edits.insert(pos, '\n\n ' + code);
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}
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}
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void _maybePatch(AstNode node) {
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if (node is FieldDeclaration) return;
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var externalKeyword = (node as dynamic).externalKeyword;
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if (externalKeyword == null) return;
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var name = _qualifiedName(node);
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var patchNode = patch.patches[name];
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if (patchNode == null) {
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print('warning: patch not found for $name: $node');
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return;
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}
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Annotation patchMeta = patchNode.metadata.lastWhere(_isPatchAnnotation);
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int start = patchMeta.endToken.next.offset;
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var code = patch.contents.substring(start, patchNode.end);
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// For some node like static fields, the node's offset doesn't include
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// the external keyword. Also starting from the keyword lets us preserve
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// documentation comments.
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edits.replace(externalKeyword.offset, node.end, code);
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}
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}
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class PatchFinder extends GeneralizingAstVisitor {
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final String contents;
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final CompilationUnit unit;
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final Map patches = <String, Declaration>{};
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final Map mergeMembers = <String, List<ClassMember>>{};
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final List mergeDeclarations = <CompilationUnitMember>[];
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PatchFinder.parseAndVisit(String name, String contents)
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: contents = contents,
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unit = parseCompilationUnit(contents, name: name) {
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visitCompilationUnit(unit);
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}
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@override
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visitCompilationUnitMember(CompilationUnitMember node) {
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mergeDeclarations.add(node);
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}
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@override
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visitClassDeclaration(ClassDeclaration node) {
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if (_isPatch(node)) {
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var members = <ClassMember>[];
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for (var member in node.members) {
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if (_isPatch(member)) {
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patches[_qualifiedName(member)] = member;
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} else {
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members.add(member);
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}
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}
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if (members.isNotEmpty) {
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mergeMembers[_qualifiedName(node)] = members;
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}
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} else {
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mergeDeclarations.add(node);
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}
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}
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@override
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visitFunctionDeclaration(FunctionDeclaration node) {
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if (_isPatch(node)) {
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patches[_qualifiedName(node)] = node;
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} else {
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mergeDeclarations.add(node);
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}
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}
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@override
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visitFunctionBody(node) {} // skip method bodies
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}
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String _qualifiedName(Declaration node) {
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var parent = node.parent;
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var className = '';
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if (parent is ClassDeclaration) {
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className = parent.name.name + '.';
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}
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var name = (node as dynamic).name;
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name = (name != null ? name.name : '');
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var accessor = '';
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if (node is MethodDeclaration) {
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if (node.isGetter) accessor = 'get:';
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else if (node.isSetter) accessor = 'set:';
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}
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return className + accessor + name;
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}
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bool _isPatch(AnnotatedNode node) => node.metadata.any(_isPatchAnnotation);
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bool _isPatchAnnotation(Annotation m) =>
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m.name.name == 'patch' && m.constructorName == null && m.arguments == null;
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/// Editable string buffer.
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///
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/// Applies a series of edits (insertions, removals, replacements) using
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/// original location information, and composes them into the edited string.
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///
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/// For example, starting with a parsed AST with original source locations,
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/// this type allows edits to be made without regards to other edits.
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class StringEditBuffer {
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final String original;
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final _edits = <_StringEdit>[];
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/// Creates a new transaction.
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StringEditBuffer(this.original);
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bool get hasEdits => _edits.length > 0;
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/// Edit the original text, replacing text on the range [begin] and
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/// exclusive [end] with the [replacement] string.
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void replace(int begin, int end, String replacement) {
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_edits.add(new _StringEdit(begin, end, replacement));
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}
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/// Insert [string] at [offset].
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/// Equivalent to `replace(offset, offset, string)`.
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void insert(int offset, String string) => replace(offset, offset, string);
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/// Remove text from the range [begin] to exclusive [end].
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/// Equivalent to `replace(begin, end, '')`.
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void remove(int begin, int end) => replace(begin, end, '');
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/// Applies all pending [edit]s and returns a new string.
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///
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/// This method is non-destructive: it does not discard existing edits or
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/// change the [original] string. Further edits can be added and this method
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/// can be called again.
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///
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/// Throws [UnsupportedError] if the edits were overlapping. If no edits were
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/// made, the original string will be returned.
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String toString() {
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var sb = new StringBuffer();
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if (_edits.length == 0) return original;
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// Sort edits by start location.
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_edits.sort();
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int consumed = 0;
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for (var edit in _edits) {
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if (consumed > edit.begin) {
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sb = new StringBuffer();
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sb.write('overlapping edits. Insert at offset ');
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sb.write(edit.begin);
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sb.write(' but have consumed ');
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sb.write(consumed);
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sb.write(' input characters. List of edits:');
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for (var e in _edits) {
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sb.write('\n ');
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sb.write(e);
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}
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throw new UnsupportedError(sb.toString());
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}
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// Add characters from the original string between this edit and the last
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// one, if any.
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var betweenEdits = original.substring(consumed, edit.begin);
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sb.write(betweenEdits);
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sb.write(edit.replace);
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consumed = edit.end;
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}
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|
|
|
// Add any text from the end of the original string that was not replaced.
|
|
sb.write(original.substring(consumed));
|
|
return sb.toString();
|
|
}
|
|
}
|
|
|
|
class _StringEdit implements Comparable<_StringEdit> {
|
|
final int begin;
|
|
final int end;
|
|
final String replace;
|
|
|
|
_StringEdit(this.begin, this.end, this.replace);
|
|
|
|
int get length => end - begin;
|
|
|
|
String toString() => '(Edit @ $begin,$end: "$replace")';
|
|
|
|
int compareTo(_StringEdit other) {
|
|
int diff = begin - other.begin;
|
|
if (diff != 0) return diff;
|
|
return end - other.end;
|
|
}
|
|
}
|
|
|
|
List<SdkLibrary> _getSdkLibraries(String contents) {
|
|
var libraryBuilder = new SdkLibrariesReader_LibraryBuilder(true);
|
|
parseCompilationUnit(contents).accept(libraryBuilder);
|
|
return libraryBuilder.librariesMap.sdkLibraries;
|
|
}
|